RU2756271C1 - Vacuum device body - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to the body of a vacuum device in the form of a cylindrical shell equipped with two bottoms. The device is characterized by the fact that the cylindrical shell is made corrugated, and the body is additionally equipped with a rigid structure that limits the minimum distance between the two bottoms.

EFFECT: invention makes it possible to reduce the weight and material consumption of the vacuum apparatus body.

1 cl, 1 dwg

Description

The invention relates to the field of vacuum technology and can be used to conduct chemical and technological processes under vacuum conditions, for example, to provide vacuum degassing processes for various materials, to provide vacuum metallization processes, for vacuum distillation, as well as for the manufacture of tanks, constantly or periodically operating in rarefaction conditions.

Known container-tank, containing a cylindrical boiler with bottoms and covering the boiler reinforcing rings, designed to meet the requirements for critical external pressure, that is, when the tank is operating under conditions of low internal vacuum. The known design of the container is not able to maintain its shape and integrity under conditions of high internal vacuum.

(See RU 95112799 A1 "TANK CONTAINER".)

The known body of the vacuum apparatus, which is a tunnel chamber in the form of a cylindrical shell, equipped with a cover and a bottom. The housing is designed to maintain a constant working vacuum inside the apparatus. To resist external atmospheric pressure, the shell shell is made of thick metal sheet and is characterized by high material consumption and high weight.

(See RU 2119622 C1 "VACUUM SUBLIMATION PLANT FOR DRYING BIOLOGICAL MATERIALS".)

The technical result achieved by the invention is to reduce the weight of the body of the vacuum apparatus.

The technical result achieved is achieved by the fact that the body of the vacuum apparatus is in the form of a cylindrical shell with bottoms, or with a cover with a sealing gasket made of elastic elastic material and a bottom, in which the shell is made in the form of a bellows, and the body is additionally equipped with a rigid frame structure limiting the minimum distance between two lids or between the lid and the bottom.

The implementation of the shell in the form of a bellows means the implementation in the form of a single-layer or multi-layer corrugated axisymmetric shell made of metallic, non-metallic and composite materials, within certain limits, retaining strength and tightness during compression, tension, bending and their combinations under the influence of internal or external pressure, temperature and mechanical stress.

Preferably, the housing has an additional non-corrugated shell located inside the bellows and protecting its inner surfaces from contamination.

The limiting rigid frame structure can be located both outside and inside the corrugated cylindrical shell, it can have thrust elements in the form of pipes, trusses or supports-pillars.

The use of the claimed invention will reduce the weight and material consumption of the body of the vacuum apparatus. For vacuum apparatuses operating in the area of low temperatures, the invention will make it possible to manufacture a shell shell of a vacuum apparatus from plastics, including by 3D printing methods.

The essence of the invention is illustrated by the drawing, where the figure shows an embodiment of the manufacture of the body of the vacuum apparatus.

The body contains a corrugated cylindrical shell 1, a non-corrugated cylindrical shell 2, a bottom 3, a cover 4, a gasket made of an elastic material 5 and an abutment rack 6.

The body works as follows.

When creating a vacuum inside the body, consisting of shells 1 and 2 nested one into the other, bottom 3 and cover 4 with a sealing gasket 5, atmospheric pressure begins to act on the outer surfaces of the body from the outer side of the corrugated shell 1 and from the outer sides of the bottom 3 and cover 4 ... With a small wall thickness, the corrugated shell has increased mechanical strength in the radial direction and reduced strength in the axial direction. To compensate for the compressive pressure acting in the axial direction from the side of the bottom 3 and the cover 4 in the direction of the shells 1 and 2, there are supports 6, which do not allow the bottom 3 and the cover 4 to transfer the force acting from the atmosphere to the shells 1 and 2 axially, along which the strength of the shell 1 is greatly reduced. The strength of the lightweight shell 2 both axially and radially is initially low, since the main purpose of this shell is to protect the inner surfaces of the shell 1 from contamination. However, the shell 2 is completely protected from external influences in the radial direction by the corrugated shell 1, and in the axial direction by the bottom 3, the cover 4 and the uprights 6.

Claims (2)

1. The body of the vacuum apparatus in the form of a cylindrical shell, equipped with two bottoms, characterized in that the cylindrical shell is corrugated, and the body is additionally equipped with a rigid structure limiting the minimum distance between the two bottoms. 2. The body of the vacuum apparatus according to claim 1, characterized in that the body has an additional non-corrugated shell placed inside the corrugated shell and protects its inner surfaces from contamination.

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